CN113230756B - Tube bundle drying waste gas treatment device - Google Patents

Tube bundle drying waste gas treatment device Download PDF

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Publication number
CN113230756B
CN113230756B CN202110494202.6A CN202110494202A CN113230756B CN 113230756 B CN113230756 B CN 113230756B CN 202110494202 A CN202110494202 A CN 202110494202A CN 113230756 B CN113230756 B CN 113230756B
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filter plate
elastic
spring
inlet pipe
air inlet
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CN113230756A (en
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彭锋
张文利
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Jiangsu Grand Drying Concentrating Equipment Co ltd
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Jiangsu Grand Drying Concentrating Equipment Co ltd
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D46/00Filters or filtering processes specially modified for separating dispersed particles from gases or vapours
    • B01D46/88Replacing filter elements
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D46/00Filters or filtering processes specially modified for separating dispersed particles from gases or vapours
    • B01D46/56Filters or filtering processes specially modified for separating dispersed particles from gases or vapours with multiple filtering elements, characterised by their mutual disposition
    • B01D46/58Filters or filtering processes specially modified for separating dispersed particles from gases or vapours with multiple filtering elements, characterised by their mutual disposition connected in parallel

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  • Chemical & Material Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Filtering Of Dispersed Particles In Gases (AREA)

Abstract

The invention relates to the technical field of tube bundle dryers, in particular to a tube bundle drying waste gas treatment device. Comprises a shell, a filter plate, an air inlet pipe, an air outlet pipe and an elastic shaft; the inside of casing is provided with the center pin, and intake pipe and outlet duct correspond the upper wall and the lower wall that set up at the casing, and the center pin is located to the elastic shaft cover, and the filter plate is connected with the upper end of elastic shaft, and the equipartition has a plurality of recesses on the filter plate, and the tank bottom of recess is provided with the filtration pore in order to form the filter core, the lower extreme and the nested cooperation of one of them recess of intake pipe, and the upper end of outlet duct is provided with flexible telescopic tube, is provided with the spring between flexible telescopic tube and the outlet duct. When the filter element is full of dust, the filter plate moves downwards under the action of air pressure to overcome the elastic force of the spring, the elastic shaft is compressed to store force, and after the filter plate moves to the position where the air inlet pipe is separated from the groove, the elastic shaft releases the stored force to enable the filter plate to rotate rapidly until the filter plate rotates to the position where the air inlet pipe is matched with the next groove, so that the filter element is replaced automatically, and the filter element is convenient and rapid.

Description

Tube bundle drying waste gas treatment device
Technical Field
The invention relates to the technical field of tube bundle dryers, in particular to a tube bundle drying waste gas treatment device.
Background
The tube bundle dryer is an indirect heating contact dryer, and is widely applied to drying of loose materials in the industries of chemical industry, light industry, food, grain, feed and the like, such as powdery, granular and flaky materials without large viscosity. The tube bundle type dryer utilizes the heat conduction and heat radiation principle to transmit heat to the dried material on the other side through the heat exchange tube wall by steam, the material is stirred and pushed by a shovel on the tube, the material is moved from the feeding end to the discharging end and is discharged from the discharging port, and the moisture of the material is vaporized and then is discharged by a fan or naturally, thereby completing the drying process.
However, in the actual production process, most of the gas of the tube bundle dryer is directly discharged to the air, when some powdery or granular objects are dried, part of the raw material is mixed in the gas generated by the tube bundle dryer and is easily discharged along with the gas, so that air pollution is caused, and the waste of the raw material is caused, therefore, it is necessary to provide an exhaust gas treatment device for collecting dust of the gas discharged from the tube bundle dryer. The filter element of the existing waste gas treatment device needs to be manually replaced, and the filter residue on the filter element is difficult to clean, so that the filtering efficiency of the whole device is relatively low.
Disclosure of Invention
According to at least one defect of the prior art, the invention provides a tube bundle drying waste gas treatment device, which can automatically replace a filter element so as to solve the problem of low filtering efficiency of the conventional tube bundle dryer.
The invention relates to a tube bundle drying waste gas treatment device, which adopts the following technical scheme: the method comprises the following steps:
the air inlet pipe and the air outlet pipe extend into the shell and correspond to each other in position;
the filter plate can slide up and down and is rotatably arranged on the central shaft, a plurality of grooves are uniformly distributed on the filter plate along the circumferential direction of the filter plate, a plurality of filter holes are formed in the bottoms of the grooves to form filter elements, and the lower end of the air inlet pipe extends into one of the grooves to block the rotation of the filter plate;
the elastic telescopic sleeve is arranged at the top end of the air outlet pipe in a vertically sliding manner, a spring is arranged between the elastic telescopic sleeve and the air outlet pipe, the spring enables the elastic telescopic sleeve to be in abutting fit with the lower surface of the filter plate, and when the filter element is full of dust, the filter plate overcomes the elastic force of the spring to move downwards under the action of air pressure so as to enable the air inlet pipe to be separated from the groove; and
the elastic shaft is sleeved on the central shaft and is positioned between the filter plate and the lower wall of the shell, and the upper end of the elastic shaft is connected with the filter plate; and is
The elastic shaft is configured to generate compression deformation when the filter plate moves downwards so as to store force to enable the filter plate to rotate, and then after the air inlet pipe is separated from the groove, the stored force is released to enable the filter plate to rotate, and when the filter plate rotates to the position, above the next groove, of the air inlet pipe, the position rises and stops rotating, deformation is recovered.
Optionally, the elastic shaft comprises an upper disc, a lower disc and a plurality of elastic sheets connected between the upper disc and the lower disc, and the elastic sheets are uniformly distributed along the circumferential direction and are spirally twisted and concavely arranged;
the upper disc and the lower disc are sleeved on the central shaft, the upper disc is connected with the filter plate, and the lower disc is connected with the central shaft in a one-way rotating mode so as to block the lower disc from rotating when the elastic sheet is compressed.
Optionally, a spiral groove and a vertical groove are arranged on the central shaft, two ends of the spiral groove are communicated with the vertical groove, and the lower end of the spiral groove is located in the middle of the vertical groove;
a spring is arranged in the upper disc, the inner end of the spring is connected with the upper disc, a spring shaft extending along the radial direction of the upper disc is arranged at the outer end of the spring, and the tail end of the spring shaft extends into the spiral groove;
a first movable stop block is arranged in the vertical groove, a second movable stop block is arranged in the spiral groove, and the first movable stop block and the second movable stop block are arranged on the central shaft through elastic pieces;
the first movable stop, the second movable stop and the elastic piece are configured to enable the spring shaft to move to the vertical groove along the spiral groove when the filter plate moves downwards, and enable the spring shaft to move along the vertical groove when the filter plate moves upwards, so that the spring can accumulate force; the rotation direction of the spiral groove is opposite to that of the elastic sheet.
Optionally, the upper wall of the housing is provided with a collecting hole, and the collecting hole is far away from the air inlet pipe and corresponds to the position of the filter element.
Optionally, the first movable stopper and the second movable stopper are both wedge-shaped stoppers having a guide inclined surface and a stopper surface; the first movable stop block is located at the top end of the vertical groove, the stop face of the first movable stop block coincides with the lower side face of the spiral groove, and the second movable stop block is located at the lower end of the spiral groove, the stop face of the second movable stop block coincides with the left side face of the vertical groove.
Optionally, the lower disc is rotatably connected to the central shaft by a one-way bearing.
Optionally, the filter element is detachably connected to the filter plate.
Optionally, the upper wall and the lower wall of the housing are respectively provided with an inlet pipe orifice and an outlet pipe orifice for mounting the inlet pipe and the outlet pipe.
Optionally, the lower end of the air inlet pipe is provided with a positioning table matched with the groove.
The invention has the beneficial effects that: according to the tube bundle dry waste gas treatment device, the filter elements are uniformly distributed on the filter plate, the elastic shaft is arranged, and the air inlet pipe and the air outlet pipe are communicated with one of the filter elements to filter dust in gas in normal operation. When the filter element is full of dust, the filter plate moves downwards under the action of air pressure, the elastic shaft is compressed to store force, when the filter plate moves to be separated from the air inlet pipe, the elastic shaft releases the stored force to enable the filter plate to rotate, and when the filter plate rotates to the air inlet pipe to be matched with the next filter element, the filter plate stops rotating, and the filter element is replaced. The automatic replacement of the filter element is realized, the machine does not need to be stopped in the replacement process, and the filter element replacement device is convenient and quick and has high working efficiency.
The invention sets spring on the upper disc of elastic shaft, sets spiral groove and vertical groove on the central shaft, when the air pressure is unstable, the filter plate moves up and down repeatedly, when the filter disc moves down, the spring shaft moves along the spiral groove because of the block of the first movable block, when the filter disc moves up, the spring shaft can not return along the vertical groove because of the block of the second movable block, thus the spring can store force. When the upper disc drives the filter plate to rotate, the spring releases the stored force, so that the rotation of the filter plate is accelerated, and the filter element is quickly replaced. Therefore, when the air pressure is unstable, the energy of the up-and-down movement of the filter plate is stored through the clockwork spring, and the filter element is replaced by assistance, so that the energy-saving and environment-friendly filter is realized.
According to the dust collector, the collecting holes are formed in the position, corresponding to the filter element, of the shell, dust on the filter element can be collected and recycled through the collecting holes, the machine does not need to be stopped, and the working efficiency is further improved.
Drawings
In order to illustrate more clearly the embodiments of the invention or the solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained by those skilled in the art without inventive exercise from these drawings, it being understood that these drawings are not necessarily drawn to scale.
Fig. 1 is a schematic view of the overall structure of a tube bundle drying exhaust gas treatment device according to the present invention.
Fig. 2 is a schematic cross-sectional structural diagram of a tube bundle drying exhaust gas treatment device according to the present invention.
Fig. 3 is a schematic structural view of the housing and the central shaft of the present invention.
Fig. 4 is an enlarged view of a portion a in fig. 3.
Fig. 5 is a schematic view of the mounting structure of the first movable stopper and the second movable stopper of the present invention.
Fig. 6 is a schematic structural view of the filter plate of the present invention.
Fig. 7 is a schematic structural view of the elastic shaft of the present invention.
Fig. 8 is an enlarged view of fig. 7 at B.
Fig. 9 is a schematic structural view of an intake pipe in the present invention.
FIG. 10 is a schematic view of the installation structure of the air outlet pipe and the elastic telescopic pipe sleeve in the present invention.
In the figure: 1. a housing; 111. an inlet pipe orifice; 112. an outlet pipe orifice; 113. a collection well; 12. a central shaft; 121. a first movable stop; 122. a second movable stop; 123. a helical groove; 124. a vertical slot; 125. a guide ramp; 126. a stop surface; 127. a support plate; 128. an elastic member; 2. filtering the plate; 21. a filter element; 3. an elastic shaft; 31. an upper disc; 311. a clockwork spring; 312. a spring shaft; 32. a spring plate; 33. a lower disc; 331. a one-way bearing; 4. an air inlet pipe; 41. a positioning table; 5. an air outlet pipe; 51. an elastic telescopic pipe sleeve; 511. a spring.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
As shown in fig. 1 to 10, a tube bundle drying exhaust gas treatment device of the present invention includes a housing 1, a filter plate 2, an inlet tube 4, an outlet tube 5, and an elastic shaft 3.
The interior of the housing 1 is hollow and a vertically extending central shaft 12 is provided between the inner top and bottom surfaces thereof. The air inlet pipe 4 and the air outlet pipe 5 are respectively vertically arranged on the upper wall and the lower wall of the shell 1, the air inlet pipe 4 and the air outlet pipe 5 extend into the shell 1, and the positions of the air inlet pipe 4 and the air outlet pipe correspond to each other. The filter plate 2 can slide up and down and is rotatably arranged on the central shaft 12, a plurality of grooves are uniformly distributed on the filter plate 2 along the circumferential direction, and a plurality of filter holes are arranged at the bottom of the grooves to form the filter element 21. The lower end of the air inlet pipe 4 extends into one of the grooves and is in nested fit with the grooves to prevent the filter plate 2 from rotating. The gas generated by the tube bundle dryer enters from the gas inlet pipe 4, is filtered by the filter element 21 and then is discharged from the gas outlet pipe 5.
An elastic telescopic sleeve 51 is arranged at the upper end part of the air outlet pipe 5 in a vertically sliding manner, a spring 511 is arranged between the elastic telescopic sleeve 51 and the air outlet pipe 5, and the spring 511 urges the elastic telescopic sleeve 51 to be in abutting fit with the lower surface of the filter plate 2. When the filter element 21 is full of dust, the gas cannot pass through smoothly, the air pressure in the air inlet pipe 4 is increased, and the filter plate 2 overcomes the elasticity of the spring 511 to move downwards under the action of the air pressure, so that the air inlet pipe 4 is separated from the groove.
The elastic shaft 3 is sleeved on the central shaft 12 and is located between the filter plate 2 and the lower wall of the casing 1, and the upper end of the elastic shaft 3 is connected with the filter plate 2. The elastic shaft 3 is configured to generate compression deformation when the filter plate 2 moves downward, so as to store force to drive the filter plate 2 to rotate, and then release the stored force to drive the filter plate 2 to rotate rapidly after the air inlet pipe 4 is separated from the groove, and when the filter plate 2 rotates to the position above the next groove of the air inlet pipe 4, and the filter plate rises and stops rotating, the elastic shaft recovers deformation, and the filter element 21 is replaced.
In this embodiment, the elastic shaft 3 includes an upper disc 31, a lower disc 33, and a plurality of elastic pieces 32 connected between the upper disc 31 and the lower disc 33, and the elastic pieces 32 are uniformly distributed along the circumferential direction and are spirally twisted and concavely disposed. As shown in fig. 7, the elastic sheet 32 is spirally twisted and recessed clockwise, and when the upper disc 31 and the lower disc 33 approach each other, the elastic sheet 32 is compressed, so that the upper disc 31 and the lower disc 33 can generate a relative rotation or a relative rotation trend along the extending direction of the elastic sheet 32 (the upper disc 31 rotates counterclockwise, and the lower disc 33 rotates clockwise).
The upper disc 31 and the lower disc 33 are rotatably sleeved on the central shaft 12, a through hole is arranged in the center of the filter plate 2, the upper disc 31 is positioned in the through hole and connected with the filter plate 2, and the lower disc 33 is connected with the central shaft 12 in a one-way rotating manner so as to prevent the lower disc 33 from rotating when the elastic sheet 32 is compressed. In the preferred embodiment of the present invention, the lower disc 33 is rotatably connected to the central shaft 12 by a one-way bearing 331, allowing only the lower disc 33 to rotate in the counterclockwise direction.
In the present embodiment, the central shaft 12 is provided with a spiral groove 123 and a vertical groove 124, two ends of the spiral groove 123 are communicated with the vertical groove 124, and the lower end of the spiral groove 123 is located in the middle of the vertical groove 124. A spring 311 wound along the circumferential direction of the upper disc 31 is arranged in the upper disc 31, the inner end of the spring 311 is connected with the upper disc 31, the outer end of the spring 311 is provided with a spring shaft 312 extending along the radial direction of the upper disc 31, and the tail end of the spring shaft 312 extends into the spiral groove 123.
A first movable stop 121 is arranged in the vertical groove 124, a second movable stop 122 is arranged in the spiral groove 123, and both the first movable stop 121 and the second movable stop 122 are mounted on the central shaft 12 through an elastic member 128.
The first movable stopper 121 and the second movable stopper 122 are each a wedge-shaped block having a guide slope 125 and a stopper face 126; the first movable stopper 121 is located at the top end of the vertical groove 124 and its stop surface 126 coincides with the lower side surface of the spiral groove 123, and the second movable stopper 122 is located at the lower end of the spiral groove 123 and its stop surface 126 coincides with the left side surface of the vertical groove 124. When the filter plate 2 moves downward, the clockwork spring 311 moves along the spiral groove 123 due to the blocking of the stop surface 126 of the first movable stopper 121, and then compresses the elastic member 128 corresponding to the second movable stopper 122, thereby moving to the vertical groove 124 beyond the second movable stopper 122. When the filter plate 2 moves upward, the spring 311 moves along the vertical groove 124 due to the blocking of the stop surface 126 of the second movable stopper 122, and the spring 311 accumulates force. The rotation direction of the spiral groove 123 is opposite to the rotation direction of the elastic sheet 32, and when the upper disc 31 drives the filter plate 2 to rotate, the spiral spring 311 releases the stored force, so as to accelerate the rotation of the filter plate 2 and complete the replacement of the filter element 21. It should be noted that, when the spring shaft 312 moves to the bottom end position of the vertical groove 124, the filter plate 2 cannot move downward due to the limit of the vertical groove 124, and at this time, the air inlet pipe 4 is just disengaged from the groove on the filter plate 2.
In this embodiment, the elastic member 128 is a torsion spring, one end of the torsion spring is connected to the central shaft 12, and the other end of the torsion spring is connected to the lower surfaces of the first movable stopper 121 and the second movable stopper 122. Two supporting plates 127 are arranged on the lower surfaces of the first movable stopper 121 and the second movable stopper 122 at intervals, and the supporting plates 127 are matched with the central shaft 12 to limit the first movable stopper 121 and the second movable stopper 122.
In the present embodiment, the upper wall of the housing 1 is provided with a collection hole 113, and the collection hole 113 is distant from the intake duct 4 and corresponds to the position of the filter cartridge 21. After filter core 21 is amasss full dust, can collect the dust through collection hole 113, the recycle of being convenient for need not to shut down when collecting the dust simultaneously, and filtration efficiency is high, convenient and fast. In other embodiments of the present invention, the filter element 21 and the filter plate 2 may be configured to be detachably connected to facilitate replacement of the filter element 21 through the collection hole 113.
In this embodiment, the upper and lower walls of the housing 1 are provided with an inlet pipe opening 111 and an outlet pipe opening 112, respectively, for mounting the inlet pipe 4 and the outlet pipe 5. The lower end of the air inlet pipe 4 is provided with a positioning table 41 which is convenient to be matched with a groove on the filter plate 2.
When in use, the air inlet pipe 4 is connected with the air outlet of the tube bundle dryer. When the tube bundle dryer works, generated gas enters from the gas inlet pipe 4, is filtered out dust through the filter element 21 and then is discharged from the gas outlet pipe 5, and the dust is accumulated on the filter element 21. Only one of the filter elements 21 is in operation and the others are in standby mode.
When the dust accumulated in the filter element 21 reaches a preset value, the gas cannot be discharged smoothly, the air pressure in the air inlet pipe 4 increases, and the filter plate 2 overcomes the elastic force of the spring 511 to move downwards under the action of the air pressure, so as to drive the upper disc 31 to move downwards. During the downward movement of the upper disc 31, the elastic sheet 32 is compressed, and due to the spiral arrangement of the elastic sheet 32, a relative rotation tendency is generated between the upper disc 31 and the lower disc 33 (since the upper disc 31 is limited by the air inlet pipe 4, the lower disc 33 is limited by the one-way bearing 331, and both the upper disc 31 and the lower disc 33 cannot rotate, so that the elastic sheet 32 accumulates the force for rotating the upper disc 31 and the lower disc 33 relatively. When the filter plate 2 moves downwards to be separated from the air inlet pipe 4, the elastic sheet 32 releases the stored force to drive the upper disc 31 to rotate rapidly along the anticlockwise direction, the air can pass through smoothly until the next filter element 21 corresponds to the air inlet pipe 4, the air pressure in the air inlet pipe 4 is reduced, the filter plate 2 drives the upper disc 31 to reset upwards under the action of the spring 511, the air inlet pipe 4 extends into the groove again to be matched with the filter plate 2, the filter plate 2 stops rotating, and the filter element 21 is replaced. The filter plate 2 drives the upper disc 31 to reset upwards, and meanwhile, the elastic sheet 32 resets, and because the filter plate 2 and the upper disc 31 cannot rotate under the limitation of the air inlet pipe 4, the lower disc 33 rotates anticlockwise relative to the upper disc 31, and the elastic shaft 3 restores to the initial state until the filter element 21 is replaced next time. Dust accumulated on the filter element 21 can be collected through the collection hole 113. Or the used cartridge 21 can be removed through the collection aperture 113 and replaced.
Further, because the pressure in the air inlet pipe is unstable, the filter plate 2 will repeatedly move up and down under the action of the air pressure, and the filter plate 2 moves up and down to drive the upper disc 31 to move up and down along the central shaft 12. During the downward movement of the filter plate 2, the spring shaft 312 moves for a circle along the spiral groove 123 due to the blocking of the first movable stopper 121, and during the upward movement of the filter plate 2, the spring shaft 312 moves upward along the vertical groove 124 due to the blocking of the second movable stopper 122, and does not return through the spiral groove 123, so that the spring 311 accumulates force. Since the spiral groove 123 rotates in the opposite direction to the spring plate 32, when the upper disc 31 rotates the filter plate 2, the torsion force accumulated in the spring 311 is released, so as to increase the rotation speed of the filter plate 2 and thus the speed of replacing the filter element 21.
The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions, improvements, etc. within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a dry exhaust treatment device of tube bank which characterized in that: the method comprises the following steps:
the air inlet pipe and the air outlet pipe extend into the shell and correspond to each other in position;
the filter plate can slide up and down and is rotatably arranged on the central shaft, a plurality of grooves are uniformly distributed on the filter plate along the circumferential direction of the filter plate, a plurality of filter holes are formed in the bottoms of the grooves to form filter elements, and the lower end of the air inlet pipe extends into one of the grooves to block the rotation of the filter plate;
the elastic telescopic sleeve is arranged at the top end of the air outlet pipe in a vertically sliding manner, a spring is arranged between the elastic telescopic sleeve and the air outlet pipe, the spring enables the elastic telescopic sleeve to be in abutting fit with the lower surface of the filter plate, and when the filter element is full of dust, the filter plate overcomes the elastic force of the spring to move downwards under the action of air pressure so as to separate the air inlet pipe from the groove; and
the elastic shaft is sleeved on the central shaft and is positioned between the filter plate and the lower wall of the shell, and the upper end of the elastic shaft is connected with the filter plate; and is
The elastic shaft is configured to generate compression deformation when the filter plate moves downwards so as to store force to drive the filter plate to rotate, then after the air inlet pipe is separated from the groove, the stored force is released to drive the filter plate to rotate, and when the filter plate rotates to the position where the air inlet pipe is positioned above the next groove and rises and stops rotating, the deformation is recovered,
the elastic shaft comprises an upper disc, a lower disc and a plurality of elastic sheets connected between the upper disc and the lower disc, and the elastic sheets are uniformly distributed along the circumferential direction and are spirally twisted and arranged inwards;
the upper disc and the lower disc are sleeved on the central shaft, the upper disc is connected with the filter plate, the lower disc is connected with the central shaft in a one-way rotating mode so as to block the lower disc from rotating when the elastic sheet is compressed, a spiral groove and a vertical groove are formed in the central shaft, two ends of the spiral groove are communicated with the vertical groove, and the lower end of the spiral groove is located in the middle of the vertical groove;
a spring is arranged in the upper disc, the inner end of the spring is connected with the upper disc, a spring shaft extending along the radial direction of the upper disc is arranged at the outer end of the spring, and the tail end of the spring shaft extends into the spiral groove;
a first movable stop block is arranged in the vertical groove, a second movable stop block is arranged in the spiral groove, and the first movable stop block and the second movable stop block are arranged on the central shaft through elastic pieces;
the first movable stop, the second movable stop and the elastic piece are configured to enable the spring shaft to move to the vertical groove along the spiral groove when the filter plate moves downwards, and enable the spring shaft to move along the vertical groove when the filter plate moves upwards, so that the spring can accumulate force; the rotation direction of the spiral groove is opposite to that of the elastic sheet; the first movable stop block and the second movable stop block are wedge-shaped blocks with guide inclined planes and stop surfaces; the first movable stop block is located at the top end of the vertical groove, the stop face of the first movable stop block coincides with the lower side face of the spiral groove, and the second movable stop block is located at the lower end of the spiral groove, the stop face of the second movable stop block coincides with the left side face of the vertical groove.
2. The tube bundle drying exhaust gas treatment device according to claim 1, characterized in that: the upper wall of the shell is provided with a collecting hole, and the collecting hole is far away from the air inlet pipe and corresponds to the position of the filter element.
3. The tube bundle drying exhaust gas treatment device according to claim 2, characterized in that: the lower disc is rotatably connected with the central shaft through a one-way bearing.
4. The tube bundle drying exhaust gas treatment device according to claim 1, characterized in that: the filter element and the filter plate are detachably connected.
5. The tube bundle drying exhaust gas treatment device according to claim 1, characterized in that: the upper wall and the lower wall of the shell are respectively provided with an inlet pipe orifice and an outlet pipe orifice for installing the air inlet pipe and the air outlet pipe.
6. The tube bundle drying exhaust gas treatment device according to claim 1, characterized in that: the lower end of the air inlet pipe is provided with a positioning table matched with the groove.
CN202110494202.6A 2021-05-07 2021-05-07 Tube bundle drying waste gas treatment device Active CN113230756B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202110494202.6A CN113230756B (en) 2021-05-07 2021-05-07 Tube bundle drying waste gas treatment device

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Application Number Priority Date Filing Date Title
CN202110494202.6A CN113230756B (en) 2021-05-07 2021-05-07 Tube bundle drying waste gas treatment device

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CN113230756B true CN113230756B (en) 2022-04-22

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CN208771045U (en) * 2018-08-18 2019-04-23 天津中环瑞亚环保科技有限公司 A kind of deduster dust collect plant being convenient to clean
CN109200809A (en) * 2018-11-16 2019-01-15 杭州富阳锦丰纸业有限公司 A kind of environment-protecting type exhaust air processing unit of plant produced processing
CN110743278A (en) * 2019-11-15 2020-02-04 榆林市榆阳区水点食品有限公司 Environmental protection equipment based on exhaust-gas treatment
CN111569528B (en) * 2020-06-04 2020-11-27 杭州绪原科技有限公司 Water pollution treatment device capable of automatically replacing filter screen
CN212881570U (en) * 2020-07-07 2021-04-06 四川汉邦石化有限责任公司 Paint produce factory building air purification system

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